Imaging apparatus, an electronic device, and imaging method to uniformize distribution of incident light, and a photostimulated luminescence detection scanner

1. An imaging apparatus, comprising: an imaging element which comprises a plurality of pixels; and a light uniformizing unit configured to: substantially uniformize distribution of a light for which a number of photons is detected; and supply the uniformized light to the imaging element.

2. The imaging apparatus according to claim 1 , wherein the light is incident in an orthogonal direction toward an optical axis of the imaging element.

3. The imaging apparatus according to claim 1 , wherein the imaging element is configured to: determine a result of a digital determination in respect to the number of photons of the uniformized light supplied to each of the plurality of pixels; and output the determined result of the digital determination of each of the plurality of pixels.

4. The imaging apparatus according to claim 3 , further comprising a calculation unit configured to: calculate sum of the determined result of the digital determination of each of the plurality of pixels based on a frame as a unit; and calculate the number of photons of the light in an exposure period of the frame based on the sum.

5. The imaging apparatus according to claim 4 , wherein the calculation unit is further configured to calculate the number of photons of the light based on difference correction information that indicates a relationship between the number of photons actually incident to the plurality of pixels and the sum.

6. The imaging apparatus according to claim 5 , wherein the imaging element is further configured to determine a result of a binary determination as the result of the digital determination, and the calculation unit is further configured to calculate the sum based on information related to Poisson distribution or a relationship approximate to the Poisson distribution as the difference correction information.

7. The imaging apparatus according to claim 4 , wherein the calculation unit is further configured to: eliminate the determined result of a pixel which comprises dark current lower than a standard; and calculate the sum based on a pixel positional information to identify the pixel which comprises the dark current lower than the standard among the plurality of pixels.

8. The imaging apparatus according to claim 7 , wherein the calculation unit is further configured to correct the sum based on a ratio of a number of pixels of which the determined result is eliminated to a total number of pixels.

9. The imaging apparatus according to claim 8 , wherein the calculation unit is further configured to calculate the number of photons of the light based on the corrected sum and differential information related to Poisson distribution or a relationship approximate to the Poisson distribution.

10. The imaging apparatus according to claim 1 , wherein the imaging element further comprises a plurality of pixel arrays, each of which is driven independently, and the light uniformizing unit is paired with each of the plurality of pixel arrays.

11. The imaging apparatus according to claim 10 , further comprising a dividing unit configured to: substantially uniformize distribution of the light in an orthogonal direction of an optical axis of the imaging element; and divide the uniformized light into a plurality of pieces of light, wherein, the light uniformizing unit is further configured to supply the uniformized light divided into the plurality of pieces to a pixel array of the plurality of pixel arrays paired with the light uniformizing unit.

12. The imaging apparatus according to claim 10 , wherein the plurality of pixels arrays have same length and same start time of exposure periods, and an array of the plurality of pixel arrays is configured to: determine a result of a digital determination in respect to the number of photons of the light supplied to each of the plurality of pixels in the array; and output the determined result of the digital determination of each of the plurality of pixels in the array, wherein the imaging apparatus further comprises a calculation unit configured to: calculate sum of the determined result of each of the plurality of pixels in the array based on an exposure period as a unit; and calculate the number of photons of the light in the exposure period based on the sum.

13. The imaging apparatus according to claim 10 , wherein the calculation unit is further configured to: calculate sum of the determined result of the plurality of pixels in the array based on a group as a unit; correct the sum based on a ratio of a number of pixel arrays which belong to the group related to the sum to a total number of pixel arrays; and calculate the number of photons of the light in an exposure period of the group based on the corrected sum, wherein, the plurality of pixel arrays are separated into a plurality of groups which comprise different start time of exposure periods, and wherein each of the plurality of pixel arrays is configured to: determine the result of the digital determination in respect to the number of photons of the uniformized light supplied to each of the plurality of pixels in the pixel array; and output the determined result of the digital determination of each of the plurality of pixels in the pixel array.

14. An electronic device, comprising: an imaging element which comprises a plurality of pixels; a light uniformizing unit configured to: substantially uniformize distribution of a light for which a number of photons is detected; and supply the uniformized light to the imaging element; wherein the imaging element is configured to: determine a result of a digital determination on each of the plurality of pixels in respect to the number of photons of the supplied light; and output the determined result of the digital determination of each of the plurality of pixels; and a calculation unit configured to: calculate sum of the determined result of digital determination of each of the plurality of pixels based on a frame as a unit; and calculate the number of photons of the light in an exposure period of the frame based on the sum.

15. A photostimulated luminescence detection scanner, comprising: a detection unit, wherein the detection unit comprises a plurality of imaging units, wherein each imaging unit of the plurality of imaging units comprises: an imaging element which comprises a plurality of pixels; and a light uniformizing unit configured to: substantially uniformize distribution of a light for which a number of photons is detected; and supply the uniformized light to the imaging element, wherein the imaging element is configured to: determine a result of a digital determination in respect to the number of photons of the uniformized light supplied to each of the plurality of pixels; and output the determined result of the digital determination of each of the plurality of pixels.

16. The photostimulated luminescence detection scanner according to claim 15 , further comprising a calculation unit configured to: calculate sum of the determined result of the digital determination of each of the plurality of pixels based on a frame as a unit; and calculate the number of photons of the light in an exposure period of the frame based on the sum.

17. The photostimulated luminescence detection scanner according to claim 16 , wherein the calculation unit is further configured to calculate the number of photons of the light based on difference correction information that indicates a relationship between the number of photons actually incident to the plurality of pixels and the sum.

18. The photostimulated luminescence detection scanner according to claim 17 , wherein the imaging element is configured to determine a result of a binary determination as the result of the digital determination, and the calculation unit is further configured to calculate the sum based on information related to Poisson distribution or a relationship approximate to the Poisson distribution as the difference correction information.

19. The photostimulated luminescence detection scanner according to claim 16 , wherein the calculation unit is further configured to: eliminate the determined result of a pixel which comprises dark current lower than a standard; and calculate the sum based on pixel positional information to identify the pixel which comprises the dark current lower than the standard among the plurality of pixels.

20. An imaging method, comprising: substantially uniformizing distribution of a light for which a number of photons is detected; supplying the uniformized light to an imaging element which comprises a plurality of pixels; determining a result of a digital determination on each of the plurality of pixels in respect to the number of photons of the uniformized light supplied to each of the plurality of pixels; calculating a sum of the determined result of the plurality of pixels based on a frame as a unit; and calculating the number of photons of the light in an exposure period of the frame based on the sum.